电力系统自动化
電力繫統自動化
전력계통자동화
AUTOMATION OF ELECTRIC POWER SYSTEMS
2015年
4期
69-75
,共7页
脉宽调制整流器%模型预测控制%直接功率控制%电网不平衡
脈寬調製整流器%模型預測控製%直接功率控製%電網不平衡
맥관조제정류기%모형예측공제%직접공솔공제%전망불평형
pulse-width modulation(PWM) rectifier%model predictive control%direct power control%unbalanced power grid
目前关于脉宽调制(PWM)整流器模型预测控制(MPC)的研究主要集中在平衡电网条件下进行,在电网不平衡时采用 MPC 进行控制的研究比较鲜见。为此,文中提出一种适用于电网不平衡下 PWM 整流器控制的模型预测直接功率控制(MPDPC),其控制目标是消除输入有功功率的二倍频脉动并保证网侧电流正弦。相比传统的 MPC,该方案仅在原有功率参考值的基础上增加一个补偿值即可实现。该功率补偿值的获取无需坐标旋转变换和电网电压电流的正负序分解,具有原理简单、容易扩展和鲁棒性好等优点。仿真和实验结果验证了所提出的 MPDPC 在电网不平衡时的有效性和可行性。
目前關于脈寬調製(PWM)整流器模型預測控製(MPC)的研究主要集中在平衡電網條件下進行,在電網不平衡時採用 MPC 進行控製的研究比較鮮見。為此,文中提齣一種適用于電網不平衡下 PWM 整流器控製的模型預測直接功率控製(MPDPC),其控製目標是消除輸入有功功率的二倍頻脈動併保證網側電流正絃。相比傳統的 MPC,該方案僅在原有功率參攷值的基礎上增加一箇補償值即可實現。該功率補償值的穫取無需坐標鏇轉變換和電網電壓電流的正負序分解,具有原理簡單、容易擴展和魯棒性好等優點。倣真和實驗結果驗證瞭所提齣的 MPDPC 在電網不平衡時的有效性和可行性。
목전관우맥관조제(PWM)정류기모형예측공제(MPC)적연구주요집중재평형전망조건하진행,재전망불평형시채용 MPC 진행공제적연구비교선견。위차,문중제출일충괄용우전망불평형하 PWM 정류기공제적모형예측직접공솔공제(MPDPC),기공제목표시소제수입유공공솔적이배빈맥동병보증망측전류정현。상비전통적 MPC,해방안부재원유공솔삼고치적기출상증가일개보상치즉가실현。해공솔보상치적획취무수좌표선전변환화전망전압전류적정부서분해,구유원리간단、용역확전화로봉성호등우점。방진화실험결과험증료소제출적 MPDPC 재전망불평형시적유효성화가행성。
The study of model predictive control (MPC) on a pulse-width modulation (PWM) rectifier is mainly implemented under the condition of ideal balanced grid voltage at present,while few investigations are reported on control under unbalanced grid voltage.Thus,this paper proposes a new model predictive direct power control (MPDPC) for PWM rectifier suitable for operation under unbalanced grid voltage,which is aimed to eliminate the double grid frequency oscillation in active power and ensure sinusoidal grid current.Compared with conventional MPC,only one compensation block is required to be added to the original power reference.The calculation of the power compensation has no need of rotary transformation and positive and negative sequence decomposition of grid voltage/currents.It has the advantages of simple principle,easy extension and strong robustness,etc.Simulation and experimental results have verified the effectiveness and feasibility of the proposed method under unbalanced grid voltage.
